Analysis of OpenACC Performance using Different Block Geometries

Barba Gutiérrez, Daniel; González Escribano, Arturo; Llanos Ferraris, Diego Rafael

Por favor, use este identificador para citar o enlazar este ítem:http://uvadoc.uva.es/handle/10324/29139

Título

Analysis of OpenACC Performance using Different Block Geometries

Autor

Barba Gutiérrez, Daniel

González Escribano, Arturo

Llanos Ferraris, Diego Rafael

Congreso

CMMSE 2017 Proceedings (Computational and Mathematical Methods in Science and Engineering)

Año del Documento

2017

Editorial

Universidad de Salamanca

Descripción

Producción Científica

Documento Fuente

CMMSE 2017 Proceedings (Computational and Mathematical Methods in Science and Engineering), Rota, Spain, july 2017

Resumo

OpenACC is a parallel programming model for automatic parallelization of sequential code using compiler directives or pragmas. OpenACC is intended to be used with accelerators such as GPUs and Xeon Phi. The different implementations of the standard, although still in early development, are primarily focused on GPU execution. In this study, we analyze how the different OpenACC compilers available under certain premises behave when the clauses affecting the underlying block geometry implementation are modified. These clauses are the Gang number, Worker number, and Vector Size defined by the standard.

Patrocinador

This research has been partially supported by MICINN (Spain) and ERDF program of the European Union: HomProg-HetSys project (TIN2014-58876-P), CAPAP-H5 network (TIN2014-53522-REDT), and COST Program Action IC1305: Network for Sustainable Ul- trascale Computing (NESUS).